Tissue-targeted therapy of autoimmune diabetes using dendritic cells transduced to express IL-4 in NOD mice.

A deficit in IL-4 production has been previously reported in both diabetic human patients and non-obese diabetic (NOD) mice. In addition, re-introducing IL-4 into NOD mice systemically, or as a transgene, led to a beneficial outcome in most studies. Here, we show that prediabetic, 12-week old female NOD mice have a deficit in IL-4 expression in the pancreatic lymph nodes (PLN) compared to age-matched diabetes-resistant NOD.B10 mice. By bioluminescence imaging, we demonstrated that the PLN was preferentially targeted by bone marrow-derived dendritic cells (DCs) following intravenous (IV) administration. Following IV injection of DCs transduced to express IL-4 (DC/IL-4) into 12-week old NOD mice, it was possible to significantly delay or prevent the onset of hyperglycemia. We then focused on the PLN to monitor, by microarray analysis, changes in gene expression induced by DC/IL-4 and observed a rapid normalization of the expression of many genes, that were otherwise under-expressed compared to NOD.B10 PLN. The protective effect of DC/IL-4 required both MHC and IL-4 expression by the DCs. Thus, adoptive cellular therapy, using DCs modified to express IL-4, offers an effective, tissue-targeted cellular therapy to prevent diabetes in NOD mice at an advanced stage of pre-diabetes, and may offer a safe approach to consider for treatment of high risk human pre-diabetic patients.

Topical voriconazole as a novel treatment for fungal keratitis.

Paecilomyces lilacinus is a fungal pathogen which is generally resistant to amphotericin B and certain other antifungals and is an uncommon cause of devastating fungal keratitis. In the present studies, we evaluated topical voriconazole as therapy for P. lilacinus keratitis in rabbits. Thirty eyes of 15 rabbits were studied. In five animals, the uninfected left eye was treated twice daily with voriconazole (drug control, uninfected eye). In these same animals, the right eye was infected with P. lilacinus but not treated with voriconazole (infection control eye). By day 5, the infection controls had lesions of >2.4 mm in diameter, with conjunctivitis and severe hypopyon, and were sacrificed. In the other 10 rabbits (voriconazole treatment), the right eyes were infected with P. lilacinus and treated with voriconazole beginning on day 3 after infection. Voriconazole therapy caused lesions to decrease during 8 days of therapy, after which rabbits were sacrificed (11 days postinfection). Hyphal masses were present in the control infected eyes and absent in treated infected eyes. Voriconazole was detected in all tissues of treated eyes. Topical voriconazole is effective treatment for P. lilacinus experimental keratitis, and it penetrates more deeply than the corneal tissue.

Microarray analysis reveals differences in gene expression of circulating CD8(+) T cells in melanoma patients and healthy donors.

Circulating T cells from many cancer patients are known to be dysfunctional and undergo spontaneous apoptosis. We used microarray technology to determine whether gene expression differences exist in T cells from melanoma patients versus healthy subjects, which may underlie these abnormalities. To maximize the resolution of our data, we sort purified CD8(+) subsets and amplified the extracted RNA for microarray analysis. These analyses show subtle but statistically significant expression differences for 10 genes in T cells from melanoma patients versus healthy controls, which were additionally confirmed by quantitative real-time PCR analysis. Whereas none of these genes are members of the classical apoptosis pathways, several may be linked to apoptosis. To additionally investigate the significance of these 10 genes, we combined them into a classifier and found that they provide a much better discrimination between melanoma and healthy T cells as compared with a classifier built uniquely with classical apoptosis-related genes. These results suggest the possible engagement of an alternative apoptosis pathway in circulating T cells from cancer patients.